Greenliant’s high-endurance SATA NANDrive EX Series ball grid array (BGA) solid state drives (SSDs), created with the company’s industry-leading EnduroSLC Technology, have earned it a multi-year, multi-million dollar program. The solid-state storage in the customer’s ruggedized PCs for mission-critical applications will be GLS85LS SATA NANDrive SSDs.
EnduroSLC SATA NANDrive EX Series SSDs provide exceptional data retention and reliable data storage in challenging, high-temperature settings, operating between 40 and +85 degrees Celsius. Password protection, zones with varying levels of protection, and secure data deletion are some of these devices’ advanced data security capabilities.
Furthermore, rather than wiping up the entire SSD, SATA NANDrive let users to choose which parts of the disk to immediately delete crucial data.
Introduced in 2011, industrial grade SATA NANDrive SSDs have been trusted by aerospace, defense, industrial, networking and transportation customers for more than a decade.
They are included in Greenliant’s Long-Term Availability (LTA) program (https://www.greenliant.com/LTA-Program).
Available in SATA and PCIe NVMe interfaces, and BGA, M.2, 2.5” and U.2 form factors, Greenliant’s EX Series NANDrive, ArmourDrive and Industrial Enterprise SSDs with EnduroSLC Technology support extended temperature ranges (-40°C to +85°C*).
These drives are ideal for systems operating in severe conditions that require best-in-class reliability at a lower cost per GByte.
EnduroSLC™ Technology
Greenliant developed EnduroSLC, a patented 3D NAND management technology, for high reliability applications that demand exceptional endurance and data retention in high-stress, high-temperature settings.
SSDs with EnduroSLC provide high cross-temperature ranges between data programming and reading, and they meet robust data retention requirements under difficult temperature settings.
The write durability of 1-bit-per-cell (SLC) SSDs is greatly increased by EnduroSLC Technology, which achieves industry-leading 400K program-erase (P/E) cycles thanks to sophisticated hardware ECC capabilities and NAND flash management algorithms.
